- Title
- Instruction cognitive one-shot malware outbreak detection
- Creator
- Park, Sean; Gondal, Iqbal; Kamruzzaman, Joarder; Oliver, Jon
- Date
- 2019
- Type
- Text; Conference paper
- Identifier
- http://researchonline.federation.edu.au/vital/access/HandleResolver/1959.17/172085
- Identifier
- vital:14452
- Identifier
-
https://doi.org/10.1007/978-3-030-36808-1_84
- Abstract
- New malware outbreaks cannot provide thousands of training samples which are required to counter malware campaigns. In some cases, there could be just one sample. So, the defense system at the firing line must be able to quickly detect many automatically generated variants using a single malware instance observed from the initial outbreak by tatically inspecting the binary executables. As previous research works show, statistical features such as term frequency-inverse document frequency and n-gram are significantly vulnerable to attacks by mutation through reinforcement learning. Recent studies focus on raw binary executable as a base feature which contains instructions describing the core logic of the sample. However, many approaches using image-matching neural networks are insufficient due to the malware mutation technique that generates a large number of samples with high entropy data. Deriving instruction cognitive representation that disambiguates legitimate instructions from the context is necessary for accurate detection over raw binary executables. In this paper, we present a novel method of detecting semantically similar malware variants within a campaign using a single raw binary malware executable. We utilize Discrete Fourier Transform of instruction cognitive representation extracted from self-attention transformer network. The experiments were conducted with in-the-wild malware samples from ransomware and banking Trojan campaigns. The proposed method outperforms several state of the art binary classification models.; E1
- Publisher
- Springer
- Relation
- 26th International Conference on Neural Information Processing [ICONIP 2019] December 12-15 2019, Proceedings, Part IV Vol. 1142, p. 769-778
- Rights
- Copyright © Springer Nature Switzerland AG 2019
- Rights
- This metadata is freely available under a CCO license
- Subject
- Deep learning; Self-attention transformer; One to many malware; Outbreak detection; Instruction recognition; Raw binary executable
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